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Water Vehicular Systems

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Presentation on theme: "Water Vehicular Systems"— Presentation transcript:

1 Water Vehicular Systems
Chapter 20 Water Vehicular Systems

2 Objectives Four types of propulsion.
Tools used to find direction, speed, time, and location in water transportation. Nautical terms and parts of ships. Support systems of water transportation.

3 Propulsion Systems Paddles and Oars: Today paddles and oars are still used in small recreational water craft. Sails: A sail is a piece of fabric used to convert wind energy into a source of propulsion. Most sails are triangular and are able to rotate into the wind. To counteract the effect of the sails to pull the boat sideways, sailboats have a keel which is placed along the bottom of the boat. Propellers: A propeller is a rotating blade that produces thrust that pushes the boat forward. An important part of the propeller is the pitch, which is the angle of the blade. Internal combustion engines, diesel engines, turboelectric generators, gas turbines, and even nuclear reactors are used to power propellers. Outboard engines are attached to the stern (back) of the boat. Water Jets: They use an inboard engine to turn an impeller. The impeller draws in water and expels it through a nozzle. The water forced out of the jet propels the craft. They are popular because they do not contain dangerous propellers.

4 Guidance Systems Direction Finding Tools: Compasses are simple devices for determining which direction is north. The needle will always point north unless it is placed near a magnetic field. Many ships and boats also use radio direction finding equipment. Transmissions are sent by radio transmitters (beacons). Location Tools: Nautical charts are maps that show coastal waters, rivers, and other marine areas. These charts are specially designed to show information for navigating waterways. They are marked with symbols that represent depth of water, underwater phone and electric lines, and wrecks. Electronic Navigation Tools: Radar (Radio detecting and ranging) systems contain a transmitter, a receiver, and a display. The operator is ably to view a 360 degree view of the objects around the vessel. The GPS (Global Positioning System) consists of 24 satellites and can be used in all weather conditions. Visual Navigation Aids: Buoys are painted markers anchored in a body of water to guide water vehicles. Red buoys mark the right side of a channel as the boat is coming into port. Green buoys mark the left side.

5 Control Systems Steering Systems: Steering vessels from side to side can be done by turning the propulsion systems. When the engine is rotated, the stern of the boat is pushed in the opposite direction. In large vessels steering is done by rudders – hinged vertical surfaces usually located near the output of the propulsion source. Diving and Rising Systems: Submersibles of ten carry weights that pull them down to the desired depth. They have compartments that fill with water. Once a submersible is ready to ascend, it releases the weights and allows the water to drain.

6 Suspension Systems Hulls serve as the suspension systems of marine vehicles. They must keep the vehicle afloat and stabilize the vessel in various water and weather conditions. Anti rolling Devices: Ships are subject to large waves on the ocean. Big keels are extensions protruding downward from the centerline of the boat. Anti rolling stabilizer tanks are U shaped tanks partially filled with water, located inside the hull of ships. As the ship rolls to one side, the water flows to the opposite side. Hydrofoils: The main hulls of these vehicles rise out of the water when the vehicle is in operation. The foils or wings lift the boat out of the water. Air cushions: Also known as hovercraft, they are designed to ride on a cushion of air the vehicle generates.

7 Structural Systems In all vessels the front is known as the bow.
The rear is known as the stern. The areas in between are divided into three zones: forward, amidships, and aft. The left of the ship is the port side. The right is known as the starboard side. The keel is a frame member that runs the length of the boat on its centerline. Traditionally wood was use. Modern boat technology makes wide use of fiberglass-reinforced plastic, aluminum, and other lightweight alloys.

8 Ship Structural Systems
The main structural hull and supporting bulkheads are steel. Other structures on the vessels, may be constructed of lighter materials, such as aluminum alloys. Lloyd’s Register of Shipping in the United Kingdom and The American Bureau of Shipping are two classification societies that watch construction of ships to ensure that quality materials, equipment, and construction techniques are used. Naval architects must be aware of the major hazards that ships face. The use of a double hull design helps stabilizing (anti rolling) or as an added floatation. Bulkheads are used to divide the hull into different watertight sections, so that only the damaged section floods.

9 Submarine Structural Systems
The deeper a submarine travels, the more pressure it must be able to withstand. For this reason submarines use a strengthened steel pressure hull. Usually submarine hulls are doubled, and the void is used for fuel storage and as a water ballast. Snorkel tubes let the vehicle take in fresh air without actually surfacing.

10 Support Systems Harbors: A harbor is a point along the coast where the water is deep enough for a vessel to come very close to shore. Ports: A port is a place where vessels load and unload cargo or passengers. Ports also have means for fuelling and repair. Locks: Locks are chamber like facilities constructed in a canal between two different water levels. It is made up of gates, pumps, and filling and draining valves. Terminals: Terminals are physical facilities or buildings needed to load and unload passengers and cargo.

11 Summary Propellers: A propeller is a rotating blade that produces thrust that pushes the boat forward. Internal combustion engines, diesel engines, turboelectric generators, gas turbines, and even nuclear reactors are used to power propellers. Water Jets: They use an inboard engine to turn an impeller. The impeller draws in water and expels it through a nozzle. The water forced out of the jet propels the craft. They are popular because they do not contain dangerous propellers. Direction Finding Tools: Many ships and boats use radio direction finding equipment. Transmissions are sent by radio transmitters (beacons). Location Tools: Nautical charts are maps that show coastal waters, rivers, and other marine areas. Electronic Navigation Tools: Radar (Radio detecting and ranging) systems contain a transmitter, a receiver, and a display. The operator is ably to view a 360 degree view of the objects around the vessel. Visual Navigation Aids: Buoys are painted markers anchored in a body of water to guide water vehicles. Red buoys mark the right side of a channel as the boat is coming into port. Green buoys mark the left side. Steering Systems: Steering vessels from side to side can be done by turning the propulsion systems. Hulls serve as the suspension systems of marine vehicles. They must keep the vehicle afloat and stabilize the vessel in various water and weather conditions. In all vessels the front is known as the bow. The rear is known as the stern. The areas in between are divided into three zones: forward, amidships, and aft. The left of the ship is the port side. The right is known as the starboard side. The keel is a frame member that runs the length of the boat on its centerline. The use of a double hull design helps stabilizing (anti rolling) or as an added floatation. Locks: Locks are chamber like facilities constructed in a canal between two different water levels. It is made up of gates, pumps, and filling and draining valves.

12 Home Work 1. Why is Water Jet propulsion popular?
2. What are buoys and how do they help in navigation?


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